Fork of the espurna firmware for `mhsw` switches
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  1. /*
  2. SENSOR MODULE
  3. Copyright (C) 2016-2017 by Xose Pérez <xose dot perez at gmail dot com>
  4. */
  5. #include <vector>
  6. #include "filters/MaxFilter.h"
  7. #include "filters/MedianFilter.h"
  8. #include "filters/MovingAverageFilter.h"
  9. #include "sensors/BaseSensor.h"
  10. typedef struct {
  11. BaseSensor * sensor;
  12. unsigned char local; // Local index in its provider
  13. magnitude_t type; // Type of measurement
  14. unsigned char global; // Global index in its type
  15. double current; // Current (last) value, unfiltered
  16. double filtered; // Filtered (averaged) value
  17. double reported; // Last reported value
  18. double min_change; // Minimum value change to report
  19. BaseFilter * filter; // Filter object
  20. } sensor_magnitude_t;
  21. std::vector<BaseSensor *> _sensors;
  22. std::vector<sensor_magnitude_t> _magnitudes;
  23. unsigned char _counts[MAGNITUDE_MAX];
  24. bool _sensor_realtime = API_REAL_TIME_VALUES;
  25. unsigned char _sensor_temperature_units = SENSOR_TEMPERATURE_UNITS;
  26. double _sensor_temperature_correction = SENSOR_TEMPERATURE_CORRECTION;
  27. // -----------------------------------------------------------------------------
  28. // Private
  29. // -----------------------------------------------------------------------------
  30. String _sensorTopic(magnitude_t type) {
  31. if (type == MAGNITUDE_TEMPERATURE) return String(SENSOR_TEMPERATURE_TOPIC);
  32. if (type == MAGNITUDE_HUMIDITY) return String(SENSOR_HUMIDITY_TOPIC);
  33. if (type == MAGNITUDE_PRESSURE) return String(SENSOR_PRESSURE_TOPIC);
  34. if (type == MAGNITUDE_CURRENT) return String(SENSOR_CURRENT_TOPIC);
  35. if (type == MAGNITUDE_VOLTAGE) return String(SENSOR_VOLTAGE_TOPIC);
  36. if (type == MAGNITUDE_POWER_ACTIVE) return String(SENSOR_ACTIVE_POWER_TOPIC);
  37. if (type == MAGNITUDE_POWER_APPARENT) return String(SENSOR_APPARENT_POWER_TOPIC);
  38. if (type == MAGNITUDE_POWER_REACTIVE) return String(SENSOR_REACTIVE_POWER_TOPIC);
  39. if (type == MAGNITUDE_POWER_FACTOR) return String(SENSOR_POWER_FACTOR_TOPIC);
  40. if (type == MAGNITUDE_ENERGY) return String(SENSOR_ENERGY_TOPIC);
  41. if (type == MAGNITUDE_ENERGY_DELTA) return String(SENSOR_ENERGY_DELTA_TOPIC);
  42. if (type == MAGNITUDE_ANALOG) return String(SENSOR_ANALOG_TOPIC);
  43. if (type == MAGNITUDE_DIGITAL) return String(SENSOR_DIGITAL_TOPIC);
  44. if (type == MAGNITUDE_EVENTS) return String(SENSOR_EVENTS_TOPIC);
  45. if (type == MAGNITUDE_PM1dot0) return String(SENSOR_PM1dot0_TOPIC);
  46. if (type == MAGNITUDE_PM2dot5) return String(SENSOR_PM2dot5_TOPIC);
  47. if (type == MAGNITUDE_PM10) return String(SENSOR_PM10_TOPIC);
  48. if (type == MAGNITUDE_CO2) return String(SENSOR_CO2_TOPIC);
  49. return String(SENSOR_UNKNOWN_TOPIC);
  50. }
  51. unsigned char _sensorDecimals(magnitude_t type) {
  52. if (type == MAGNITUDE_TEMPERATURE) return SENSOR_TEMPERATURE_DECIMALS;
  53. if (type == MAGNITUDE_HUMIDITY) return SENSOR_HUMIDITY_DECIMALS;
  54. if (type == MAGNITUDE_PRESSURE) return SENSOR_PRESSURE_DECIMALS;
  55. if (type == MAGNITUDE_CURRENT) return SENSOR_CURRENT_DECIMALS;
  56. if (type == MAGNITUDE_VOLTAGE) return SENSOR_VOLTAGE_DECIMALS;
  57. if (type == MAGNITUDE_POWER_ACTIVE) return SENSOR_POWER_DECIMALS;
  58. if (type == MAGNITUDE_POWER_APPARENT) return SENSOR_POWER_DECIMALS;
  59. if (type == MAGNITUDE_POWER_REACTIVE) return SENSOR_POWER_DECIMALS;
  60. if (type == MAGNITUDE_POWER_FACTOR) return SENSOR_POWER_FACTOR_DECIMALS;
  61. if (type == MAGNITUDE_ENERGY) return SENSOR_ENERGY_DECIMALS;
  62. if (type == MAGNITUDE_ENERGY_DELTA) return SENSOR_ENERGY_DECIMALS;
  63. if (type == MAGNITUDE_ANALOG) return SENSOR_ANALOG_DECIMALS;
  64. if (type == MAGNITUDE_EVENTS) return SENSOR_EVENTS_DECIMALS;
  65. if (type == MAGNITUDE_PM1dot0) return SENSOR_PM1dot0_DECIMALS;
  66. if (type == MAGNITUDE_PM2dot5) return SENSOR_PM2dot5_DECIMALS;
  67. if (type == MAGNITUDE_PM10) return SENSOR_PM10_DECIMALS;
  68. if (type == MAGNITUDE_CO2) return SENSOR_CO2_DECIMALS;
  69. return 0;
  70. }
  71. String _sensorUnits(magnitude_t type) {
  72. if (type == MAGNITUDE_TEMPERATURE) return (_sensor_temperature_units == TMP_CELSIUS) ? String("C") : String("F");
  73. if (type == MAGNITUDE_HUMIDITY) return String("%");
  74. if (type == MAGNITUDE_PRESSURE) return String("hPa");
  75. if (type == MAGNITUDE_CURRENT) return String("A");
  76. if (type == MAGNITUDE_VOLTAGE) return String("V");
  77. if (type == MAGNITUDE_POWER_ACTIVE) return String("W");
  78. if (type == MAGNITUDE_POWER_APPARENT) return String("W");
  79. if (type == MAGNITUDE_POWER_REACTIVE) return String("W");
  80. if (type == MAGNITUDE_POWER_FACTOR) return String("%");
  81. if (type == MAGNITUDE_ENERGY) return String("J");
  82. if (type == MAGNITUDE_ENERGY_DELTA) return String("J");
  83. if (type == MAGNITUDE_EVENTS) return String("/min");
  84. if (type == MAGNITUDE_PM1dot0) return String("µg/m3");
  85. if (type == MAGNITUDE_PM2dot5) return String("µg/m3");
  86. if (type == MAGNITUDE_PM10) return String("µg/m3");
  87. if (type == MAGNITUDE_CO2) return String("ppm");
  88. return String();
  89. }
  90. double _sensorProcess(magnitude_t type, double value) {
  91. if (type == MAGNITUDE_TEMPERATURE) {
  92. if (_sensor_temperature_units == TMP_FAHRENHEIT) value = value * 1.8 + 32;
  93. value = value + _sensor_temperature_correction;
  94. }
  95. return roundTo(value, _sensorDecimals(type));
  96. }
  97. void _sensorConfigure() {
  98. _sensor_realtime = getSetting("apiRealTime", API_REAL_TIME_VALUES).toInt() == 1;
  99. _sensor_temperature_units = getSetting("tmpUnits", SENSOR_TEMPERATURE_UNITS).toInt();
  100. _sensor_temperature_correction = getSetting("tmpCorrection", SENSOR_TEMPERATURE_CORRECTION).toFloat();
  101. }
  102. #if WEB_SUPPORT
  103. void _sensorWebSocketSendData(JsonObject& root) {
  104. char buffer[10];
  105. bool hasTemperature = false;
  106. JsonArray& list = root.createNestedArray("magnitudes");
  107. for (unsigned char i=0; i<_magnitudes.size(); i++) {
  108. sensor_magnitude_t magnitude = _magnitudes[i];
  109. unsigned char decimals = _sensorDecimals(magnitude.type);
  110. dtostrf(magnitude.current, 1-sizeof(buffer), decimals, buffer);
  111. JsonObject& element = list.createNestedObject();
  112. element["type"] = int(magnitude.type);
  113. element["value"] = String(buffer);
  114. element["units"] = _sensorUnits(magnitude.type);
  115. element["description"] = magnitude.sensor->slot(magnitude.local);
  116. element["error"] = magnitude.sensor->error();
  117. if (magnitude.type == MAGNITUDE_TEMPERATURE) hasTemperature = true;
  118. }
  119. //root["apiRealTime"] = _sensor_realtime;
  120. root["tmpUnits"] = _sensor_temperature_units;
  121. root["tmpCorrection"] = _sensor_temperature_correction;
  122. if (hasTemperature) root["temperatureVisible"] = 1;
  123. }
  124. void _sensorWebSocketStart(JsonObject& root) {
  125. /*
  126. // Sensors manifest
  127. JsonObject& manifest = root.createNestedObject("manifest");
  128. #if BMX280_SUPPORT
  129. BMX280Sensor::manifest(manifest);
  130. #endif
  131. // Sensors configuration
  132. JsonArray& sensors = root.createNestedArray("sensors");
  133. for (unsigned char i; i<_sensors.size(); i++) {
  134. JsonObject& sensor = sensors.createNestedObject();
  135. sensor["id"] = i;
  136. _sensors[i]->getConfig(sensor);
  137. }
  138. */
  139. }
  140. void _sensorAPISetup() {
  141. for (unsigned char magnitude_id=0; magnitude_id<_magnitudes.size(); magnitude_id++) {
  142. sensor_magnitude_t magnitude = _magnitudes[magnitude_id];
  143. String topic = _sensorTopic(magnitude.type);
  144. if (SENSOR_USE_INDEX || (_counts[magnitude.type] > 1)) topic = topic + "/" + String(magnitude.global);
  145. apiRegister(topic.c_str(), topic.c_str(), [magnitude_id](char * buffer, size_t len) {
  146. sensor_magnitude_t magnitude = _magnitudes[magnitude_id];
  147. unsigned char decimals = _sensorDecimals(magnitude.type);
  148. double value = _sensor_realtime ? magnitude.current : magnitude.filtered;
  149. dtostrf(value, 1-len, decimals, buffer);
  150. });
  151. }
  152. }
  153. #endif
  154. void _sensorTick() {
  155. for (unsigned char i=0; i<_sensors.size(); i++) {
  156. _sensors[i]->tick();
  157. }
  158. }
  159. void _sensorPre() {
  160. for (unsigned char i=0; i<_sensors.size(); i++) {
  161. _sensors[i]->pre();
  162. if (!_sensors[i]->status()) {
  163. DEBUG_MSG("[SENSOR] Error reading data from %s (error: %d)\n",
  164. _sensors[i]->description().c_str(),
  165. _sensors[i]->error()
  166. );
  167. }
  168. }
  169. }
  170. void _sensorPost() {
  171. for (unsigned char i=0; i<_sensors.size(); i++) {
  172. _sensors[i]->post();
  173. }
  174. }
  175. // -----------------------------------------------------------------------------
  176. // Sensor initialization
  177. // -----------------------------------------------------------------------------
  178. void _sensorRegister(BaseSensor * sensor) {
  179. sensor->begin();
  180. _sensors.push_back(sensor);
  181. }
  182. void _sensorInit() {
  183. #if ANALOG_SUPPORT
  184. {
  185. AnalogSensor * sensor = new AnalogSensor();
  186. _sensorRegister(sensor);
  187. }
  188. #endif
  189. #if BMX280_SUPPORT
  190. {
  191. BMX280Sensor * sensor = new BMX280Sensor();
  192. sensor->setAddress(BMX280_ADDRESS);
  193. _sensorRegister(sensor);
  194. }
  195. #endif
  196. #if DALLAS_SUPPORT
  197. {
  198. DallasSensor * sensor = new DallasSensor();
  199. sensor->setGPIO(DALLAS_PIN);
  200. _sensorRegister(sensor);
  201. }
  202. #endif
  203. #if DHT_SUPPORT
  204. {
  205. DHTSensor * sensor = new DHTSensor();
  206. sensor->setGPIO(DHT_PIN);
  207. sensor->setType(DHT_TYPE);
  208. _sensorRegister(sensor);
  209. }
  210. #endif
  211. #if DIGITAL_SUPPORT
  212. {
  213. DigitalSensor * sensor = new DigitalSensor();
  214. sensor->setGPIO(DIGITAL_PIN);
  215. sensor->setMode(DIGITAL_PIN_MODE);
  216. sensor->setDefault(DIGITAL_DEFAULT_STATE);
  217. _sensorRegister(sensor);
  218. }
  219. #endif
  220. #if EMON_ADC121_SUPPORT
  221. {
  222. EmonADC121Sensor * sensor = new EmonADC121Sensor();
  223. sensor->setAddress(EMON_ADC121_I2C_ADDRESS);
  224. sensor->setVoltage(EMON_MAINS_VOLTAGE);
  225. sensor->setReference(EMON_REFERENCE_VOLTAGE);
  226. sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
  227. _sensorRegister(sensor);
  228. }
  229. #endif
  230. #if EMON_ADS1X15_SUPPORT
  231. {
  232. EmonADS1X15Sensor * sensor = new EmonADS1X15Sensor();
  233. sensor->setAddress(EMON_ADS1X15_I2C_ADDRESS);
  234. sensor->setType(EMON_ADS1X15_TYPE);
  235. sensor->setMask(EMON_ADS1X15_MASK);
  236. sensor->setGain(EMON_ADS1X15_GAIN);
  237. sensor->setVoltage(EMON_MAINS_VOLTAGE);
  238. sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
  239. sensor->setCurrentRatio(1, EMON_CURRENT_RATIO);
  240. sensor->setCurrentRatio(2, EMON_CURRENT_RATIO);
  241. sensor->setCurrentRatio(3, EMON_CURRENT_RATIO);
  242. _sensorRegister(sensor);
  243. }
  244. #endif
  245. #if EMON_ANALOG_SUPPORT
  246. {
  247. EmonAnalogSensor * sensor = new EmonAnalogSensor();
  248. sensor->setVoltage(EMON_MAINS_VOLTAGE);
  249. sensor->setReference(EMON_REFERENCE_VOLTAGE);
  250. sensor->setCurrentRatio(0, EMON_CURRENT_RATIO);
  251. _sensorRegister(sensor);
  252. }
  253. #endif
  254. #if EVENTS_SUPPORT
  255. {
  256. EventSensor * sensor = new EventSensor();
  257. sensor->setGPIO(EVENTS_PIN);
  258. sensor->setMode(EVENTS_PIN_MODE);
  259. sensor->setDebounceTime(EVENTS_DEBOUNCE);
  260. sensor->setInterruptMode(EVENTS_INTERRUPT_MODE);
  261. _sensorRegister(sensor);
  262. }
  263. #endif
  264. #if MHZ19_SUPPORT
  265. {
  266. MHZ19Sensor * sensor = new MHZ19Sensor();
  267. sensor->setRX(MHZ19_RX_PIN);
  268. sensor->setTX(MHZ19_TX_PIN);
  269. _sensorRegister(sensor);
  270. }
  271. #endif
  272. #if PMSX003_SUPPORT
  273. {
  274. PMSX003Sensor * sensor = new PMSX003Sensor();
  275. sensor->setRX(PMS_RX_PIN);
  276. sensor->setTX(PMS_TX_PIN);
  277. _sensorRegister(sensor);
  278. }
  279. #endif
  280. #if SI7021_SUPPORT
  281. {
  282. SI7021Sensor * sensor = new SI7021Sensor();
  283. sensor->setAddress(SI7021_ADDRESS);
  284. _sensorRegister(sensor);
  285. }
  286. #endif
  287. }
  288. void _magnitudesInit() {
  289. for (unsigned char i=0; i<_sensors.size(); i++) {
  290. BaseSensor * sensor = _sensors[i];
  291. DEBUG_MSG("[SENSOR] %s\n", sensor->description().c_str());
  292. if (sensor->error() != 0) DEBUG_MSG("[SENSOR] -> ERROR %d\n", sensor->error());
  293. for (unsigned char k=0; k<sensor->count(); k++) {
  294. magnitude_t type = sensor->type(k);
  295. sensor_magnitude_t new_magnitude;
  296. new_magnitude.sensor = sensor;
  297. new_magnitude.local = k;
  298. new_magnitude.type = type;
  299. new_magnitude.global = _counts[type];
  300. new_magnitude.current = 0;
  301. new_magnitude.filtered = 0;
  302. new_magnitude.reported = 0;
  303. new_magnitude.min_change = 0;
  304. if (type == MAGNITUDE_DIGITAL) {
  305. new_magnitude.filter = new MaxFilter();
  306. } else if (type == MAGNITUDE_EVENTS) {
  307. new_magnitude.filter = new MovingAverageFilter(SENSOR_REPORT_EVERY);
  308. } else {
  309. new_magnitude.filter = new MedianFilter();
  310. }
  311. _magnitudes.push_back(new_magnitude);
  312. DEBUG_MSG("[SENSOR] -> %s:%d\n", _sensorTopic(type).c_str(), _counts[type]);
  313. _counts[type] = _counts[type] + 1;
  314. }
  315. }
  316. }
  317. // -----------------------------------------------------------------------------
  318. // Public
  319. // -----------------------------------------------------------------------------
  320. unsigned char sensorCount() {
  321. return _sensors.size();
  322. }
  323. unsigned char magnitudeCount() {
  324. return _magnitudes.size();
  325. }
  326. String magnitudeName(unsigned char index) {
  327. if (index < _magnitudes.size()) {
  328. sensor_magnitude_t magnitude = _magnitudes[index];
  329. return magnitude.sensor->slot(magnitude.local);
  330. }
  331. return String();
  332. }
  333. unsigned char magnitudeType(unsigned char index) {
  334. if (index < _magnitudes.size()) {
  335. return int(_magnitudes[index].type);
  336. }
  337. return MAGNITUDE_NONE;
  338. }
  339. // -----------------------------------------------------------------------------
  340. void sensorSetup() {
  341. // Load sensors
  342. _sensorInit();
  343. // Load magnitudes
  344. _magnitudesInit();
  345. #if WEB_SUPPORT
  346. // Websockets
  347. wsOnSendRegister(_sensorWebSocketStart);
  348. wsOnSendRegister(_sensorWebSocketSendData);
  349. wsOnAfterParseRegister(_sensorConfigure);
  350. // API
  351. _sensorAPISetup();
  352. #endif
  353. }
  354. void sensorLoop() {
  355. static unsigned long last_update = 0;
  356. static unsigned long report_count = 0;
  357. // Tick hook
  358. _sensorTick();
  359. // Check if we should read new data
  360. if (millis() - last_update > SENSOR_READ_INTERVAL) {
  361. last_update = millis();
  362. report_count = (report_count + 1) % SENSOR_REPORT_EVERY;
  363. double current;
  364. double filtered;
  365. char buffer[64];
  366. // Pre-read hook
  367. _sensorPre();
  368. // Get readings
  369. for (unsigned char i=0; i<_magnitudes.size(); i++) {
  370. sensor_magnitude_t magnitude = _magnitudes[i];
  371. if (magnitude.sensor->status()) {
  372. unsigned char decimals = _sensorDecimals(magnitude.type);
  373. current = magnitude.sensor->value(magnitude.local);
  374. magnitude.filter->add(current);
  375. // Special case
  376. if (magnitude.type == MAGNITUDE_EVENTS) current = magnitude.filter->result();
  377. current = _sensorProcess(magnitude.type, current);
  378. _magnitudes[i].current = current;
  379. // Debug
  380. #if SENSOR_DEBUG
  381. {
  382. dtostrf(current, 1-sizeof(buffer), decimals, buffer);
  383. DEBUG_MSG("[SENSOR] %s - %s: %s%s\n",
  384. magnitude.sensor->slot(magnitude.local).c_str(),
  385. _sensorTopic(magnitude.type).c_str(),
  386. buffer,
  387. _sensorUnits(magnitude.type).c_str()
  388. );
  389. }
  390. #endif
  391. // Time to report (we do it every SENSOR_REPORT_EVERY readings)
  392. if (report_count == 0) {
  393. filtered = magnitude.filter->result();
  394. magnitude.filter->reset();
  395. filtered = _sensorProcess(magnitude.type, filtered);
  396. _magnitudes[i].filtered = filtered;
  397. // Check if there is a minimum change threshold to report
  398. if (fabs(filtered - magnitude.reported) >= magnitude.min_change) {
  399. _magnitudes[i].reported = filtered;
  400. dtostrf(filtered, 1-sizeof(buffer), decimals, buffer);
  401. #if MQTT_SUPPORT
  402. if (SENSOR_USE_INDEX || (_counts[magnitude.type] > 1)) {
  403. mqttSend(_sensorTopic(magnitude.type).c_str(), magnitude.global, buffer);
  404. } else {
  405. mqttSend(_sensorTopic(magnitude.type).c_str(), buffer);
  406. }
  407. #endif
  408. #if INFLUXDB_SUPPORT
  409. if (SENSOR_USE_INDEX || (_counts[magnitude.type] > 1)) {
  410. idbSend(_sensorTopic(magnitude.type).c_str(), magnitude.global, buffer);
  411. } else {
  412. idbSend(_sensorTopic(magnitude.type).c_str(), buffer);
  413. }
  414. #endif
  415. #if DOMOTICZ_SUPPORT
  416. {
  417. char key[15];
  418. snprintf_P(key, sizeof(key), PSTR("dczSensor%d"), i);
  419. if (magnitude.type == MAGNITUDE_HUMIDITY) {
  420. int status;
  421. if (filtered > 70) {
  422. status = HUMIDITY_WET;
  423. } else if (filtered > 45) {
  424. status = HUMIDITY_COMFORTABLE;
  425. } else if (filtered > 30) {
  426. status = HUMIDITY_NORMAL;
  427. } else {
  428. status = HUMIDITY_DRY;
  429. }
  430. char status_buf[5];
  431. itoa(status, status_buf, 10);
  432. domoticzSend(key, buffer, status_buf);
  433. } else {
  434. domoticzSend(key, 0, buffer);
  435. }
  436. }
  437. #endif
  438. } // if (fabs(filtered - magnitude.reported) >= magnitude.min_change)
  439. } // if (report_count == 0)
  440. } // if (magnitude.sensor->status())
  441. } // for (unsigned char i=0; i<_magnitudes.size(); i++)
  442. // Post-read hook
  443. _sensorPost();
  444. #if WEB_SUPPORT
  445. wsSend(_sensorWebSocketSendData);
  446. #endif
  447. }
  448. }